3
0
mirror of https://github.com/pragma-/pbot.git synced 2024-11-18 18:09:49 +01:00
pbot/modules/c2english/CGrammar.pm
Tomasz Kramkowski b5d8f72254 License project under MPL2
This patch adds the file LICENSE which is the verbatim copy of the
Mozilla Public License Version 2.0 as retreived from
https://www.mozilla.org/media/MPL/2.0/index.815ca599c9df.txt on
2017-03-05.

This patch also places license headers for the MPL2 type A variant of
the license header in the following files:

PBot/AntiFlood.pm
PBot/BanTracker.pm
PBot/BlackList.pm
PBot/BotAdminCommands.pm
PBot/BotAdmins.pm
PBot/ChanOpCommands.pm
PBot/ChanOps.pm
PBot/Channels.pm
PBot/Commands.pm
PBot/DualIndexHashObject.pm
PBot/EventDispatcher.pm
PBot/FactoidCommands.pm
PBot/FactoidModuleLauncher.pm
PBot/Factoids.pm
PBot/HashObject.pm
PBot/IRCHandlers.pm
PBot/IgnoreList.pm
PBot/IgnoreListCommands.pm
PBot/Interpreter.pm
PBot/LagChecker.pm
PBot/Logger.pm
PBot/MessageHistory.pm
PBot/MessageHistory_SQLite.pm
PBot/NickList.pm
PBot/PBot.pm
PBot/Plugins.pm
PBot/Plugins/AntiAway.pm
PBot/Plugins/AntiKickAutoRejoin.pm
PBot/Plugins/AntiRepeat.pm
PBot/Plugins/AntiTwitter.pm
PBot/Plugins/AutoRejoin.pm
PBot/Plugins/Counter.pm
PBot/Plugins/Quotegrabs.pm
PBot/Plugins/Quotegrabs/Quotegrabs_Hashtable.pm
PBot/Plugins/Quotegrabs/Quotegrabs_SQLite.pm
PBot/Plugins/UrlTitles.pm
PBot/Plugins/_Example.pm
PBot/Refresher.pm
PBot/Registerable.pm
PBot/Registry.pm
PBot/RegistryCommands.pm
PBot/SQLiteLogger.pm
PBot/SQLiteLoggerLayer.pm
PBot/SelectHandler.pm
PBot/StdinReader.pm
PBot/Timer.pm
PBot/Utils/ParseDate.pm
PBot/VERSION.pm
build/update-version.pl
modules/acronym.pl
modules/ago.pl
modules/c11std.pl
modules/c2english.pl
modules/c2english/CGrammar.pm
modules/c2english/c2eng.pl
modules/c99std.pl
modules/cdecl.pl
modules/cfaq.pl
modules/cjeopardy/IRCColors.pm
modules/cjeopardy/QStatskeeper.pm
modules/cjeopardy/Scorekeeper.pm
modules/cjeopardy/cjeopardy.pl
modules/cjeopardy/cjeopardy_answer.pl
modules/cjeopardy/cjeopardy_filter.pl
modules/cjeopardy/cjeopardy_hint.pl
modules/cjeopardy/cjeopardy_qstats.pl
modules/cjeopardy/cjeopardy_scores.pl
modules/cjeopardy/cjeopardy_show.pl
modules/codepad.pl
modules/compiler_block.pl
modules/compiler_client.pl
modules/compiler_vm/Diff.pm
modules/compiler_vm/cc
modules/compiler_vm/compiler_client.pl
modules/compiler_vm/compiler_server.pl
modules/compiler_vm/compiler_server_vbox_win32.pl
modules/compiler_vm/compiler_server_watchdog.pl
modules/compiler_vm/compiler_vm_client.pl
modules/compiler_vm/compiler_vm_server.pl
modules/compiler_vm/compiler_watchdog.pl
modules/compiler_vm/languages/_c_base.pm
modules/compiler_vm/languages/_default.pm
modules/compiler_vm/languages/bash.pm
modules/compiler_vm/languages/bc.pm
modules/compiler_vm/languages/bf.pm
modules/compiler_vm/languages/c11.pm
modules/compiler_vm/languages/c89.pm
modules/compiler_vm/languages/c99.pm
modules/compiler_vm/languages/clang.pm
modules/compiler_vm/languages/clang11.pm
modules/compiler_vm/languages/clang89.pm
modules/compiler_vm/languages/clang99.pm
modules/compiler_vm/languages/clangpp.pm
modules/compiler_vm/languages/clisp.pm
modules/compiler_vm/languages/cpp.pm
modules/compiler_vm/languages/freebasic.pm
modules/compiler_vm/languages/go.pm
modules/compiler_vm/languages/haskell.pm
modules/compiler_vm/languages/java.pm
modules/compiler_vm/languages/javascript.pm
modules/compiler_vm/languages/ksh.pm
modules/compiler_vm/languages/lua.pm
modules/compiler_vm/languages/perl.pm
modules/compiler_vm/languages/python.pm
modules/compiler_vm/languages/python3.pm
modules/compiler_vm/languages/qbasic.pm
modules/compiler_vm/languages/scheme.pm
modules/compiler_vm/languages/server/_c_base.pm
modules/compiler_vm/languages/server/_default.pm
modules/compiler_vm/languages/server/c11.pm
modules/compiler_vm/languages/server/c89.pm
modules/compiler_vm/languages/server/c99.pm
modules/compiler_vm/languages/server/clang.pm
modules/compiler_vm/languages/server/clang11.pm
modules/compiler_vm/languages/server/clang89.pm
modules/compiler_vm/languages/server/clang99.pm
modules/compiler_vm/languages/server/cpp.pm
modules/compiler_vm/languages/server/freebasic.pm
modules/compiler_vm/languages/server/haskell.pm
modules/compiler_vm/languages/server/java.pm
modules/compiler_vm/languages/server/qbasic.pm
modules/compiler_vm/languages/server/tendra.pm
modules/compiler_vm/languages/sh.pm
modules/compiler_vm/languages/tendra.pm
modules/compliment
modules/cstd.pl
modules/define.pl
modules/dice_roll.pl
modules/excuse.sh
modules/expand_macros.pl
modules/fnord.pl
modules/funnyish_quote.pl
modules/g.pl
modules/gdefine.pl
modules/gen_cfacts.pl
modules/gencstd.pl
modules/get_title.pl
modules/getcfact.pl
modules/google.pl
modules/gspy.pl
modules/gtop10.pl
modules/gtop15.pl
modules/headlines.pl
modules/horoscope
modules/horrorscope
modules/ideone.pl
modules/insult.pl
modules/love_quote.pl
modules/man.pl
modules/map.pl
modules/math.pl
modules/prototype.pl
modules/qalc.pl
modules/random_quote.pl
modules/seen.pl
modules/urban
modules/weather.pl
modules/wikipedia.pl
pbot.pl
pbot.sh

It is highly recommended that this list of files is reviewed to ensure
that all files are the copyright of the sole maintainer of the
repository. If any files with license headers contain the intellectual
property of anyone else, it is recommended that a request is made to
revise this patch or that the explicit permission of the co-author is
gained to allow for the license of the work to be changed.

I (Tomasz Kramkowski), the contributor, take no responsibility for any
legal action taken against the maintainer of this repository for
incorrectly claiming copyright to any work not owned by the maintainer
of this repository.
2017-03-06 00:31:15 +00:00

1962 lines
71 KiB
Perl
Executable File

# C-to-English Grammar
# Pragmatic Software
# This Source Code Form is subject to the terms of the Mozilla Public
# License, v. 2.0. If a copy of the MPL was not distributed with this
# file, You can obtain one at http://mozilla.org/MPL/2.0/.
{
my ($rule_name, @macros, @typedefs, @identifiers);
}
startrule:
translation_unit
{
my $output = $item[-1];
$output =~ s/\^L(\s*.?)/\L$1/g; # lowercase specified characters
$output =~ s/\^U(\s*.?)/\U$1/g; # uppercase specified characters
push @$return, $output;
}
startrule(?)
{ push @$return, $item[-1]; }
translation_unit:
comment
| external_declaration
| function_definition
| preproc[matchrule => 'translation_unit']
preproc:
'#' (definition
| undefinition
| inclusion
| line
| error
| pragma
| preproc_conditional[matchrule => $arg{matchrule}])
definition:
macro_definition
| 'define' identifier token_sequence(?) <skip: '[ \t]*'> "\n"
{
my $token_sequence = join('',@{$item{'token_sequence(?)'}});
$return = "Define the macro $item{identifier}";
$return .= " to mean $token_sequence" if $token_sequence;
$return .= ".\n";
}
macro_definition:
'define' identifier '(' <leftop: identifier ',' identifier> ')' token_sequence <skip: '[ \t]*'> "\n"
{
my @symbols = @{$item[-5]};
my $last;
push @macros, $item{identifier};
$return = "Define the macro $item{identifier} ";
if ($#symbols > 0) {
$last = pop @symbols;
$return .= "with the symbols " . join(", ",@symbols) . " and $last ";
} else {
$return .= "with the symbol $symbols[0] ";
}
$return .= "to use the token sequence `$item{token_sequence}`.\n";
}
undefinition:
'undef' identifier <skip: '[ \t]*'> "\n"
{
@macros = grep { $_ ne $item{identifier} } @macros;
$return = "\nAnnul the definition of $item{identifier}.\n";
}
inclusion:
'include' '<' filename '>' <skip: '[ \t]*'> "\n"
{ $return = "\nInclude the header $item{filename}.\n"; }
| 'include' '"' filename '"' <skip: '[ \t]*'> "\n"
{ $return = "\nInclude the source file $item{filename}.\n"; }
| 'include' token
{ $return = "\nImport code noted by the token $item{token}.\n"; }
filename:
/[_\.\-\w\/]+/
line:
'line' constant ('"' filename '"'
{ $return = "and filename $item{filename}"; }
)(?) <skip: '[ \t]*'> "\n"
{ $return = "\nThis is line number $item{constant} " . join('', @{$item[-3]}) . ".\n"; }
error:
'error' token_sequence(?) <skip: '[ \t]*'> "\n"
{ $return = "Stop compilation with error \"" . join('', @{$item{'token_sequence(?)'}}) . "\".\n"; }
pragma:
'pragma' token_sequence(?) <skip: '[ \t]*'> "\n"
{
my $pragma = join('',@{$item{'token_sequence(?)'}});
if ($pragma) { $pragma = ' "$pragma"'; }
$return = "Process a compiler-dependent pragma$pragma.\n";
}
preproc_conditional:
if_line[matchrule => $arg{matchrule}]
{ $rule_name = $arg{matchrule}; }
<matchrule: $rule_name>(s?)
{ $return = $item{if_line} . join('',@{$item[-1]}); }
(elif_parts[matchrule => $rule_name])(?)
(else_parts[matchrule => $rule_name])(?)
{ $return .= join('',@{$item[-2]}) . join('',@{$item[-1]}); }
'#' 'endif'
{ $return .= "End preprocessor conditional.\n"; }
if_line:
'ifdef' identifier <skip: '[ \t]*'> "\n"
{ $return .= "If the macro $item{identifier} is defined, then ^L"; }
| 'ifndef' identifier <skip: '[ \t]*'> "\n"
{ $return .= "If the macro $item{identifier} is not defined, then ^L"; }
| 'if' constant_expression <skip: '[ \t]*'> "\n"
{ $return .= "If the preprocessor condition^L $item{constant_expression} is true, then ^L"; }
elif_parts:
('#' 'elif' constant_expression
{ $return .= "Otherwise, if the preprocessor condition $item{constant_expression} is true, then ^L"; }
(<matchrule: $rule_name> )[matchrule => $arg{matchrule}](s?)
{ $return .= join('',@{$item[-1]}); }
)(s)
{ $return = join('', @{$item[-1]}); }
else_parts:
'#' 'else'
{ $rule_name = $arg{matchrule}; }
(<matchrule: $rule_name>)[matchrule => $arg{matchrule}](s?)
{ $return = "Otherwise, ^L" . join('',@{$item[-1]}); }
token_sequence:
token(s)
{ $return = join(' ', @{$item[1]}); }
token:
<skip: '[ \t]*'> /\S+/
{ $return = $item[-1]; }
external_declaration:
declaration[context => 'external declaration']
function_definition:
declaration_specifiers[context => 'function definition'](?) declarator[context => 'function definition'] compound_statement[context => 'function definition statement'](?)
{
my $declaration_specifiers = join('', @{$item{'declaration_specifiers(?)'}});
my $name = $item{declarator}->[0];
my $parameter_list = $item{declarator}->[1];
my $return_type;
if (@{$item{declarator}} > 2) {
$return_type = "$item{declarator}->[2] $declaration_specifiers";
} else {
$return_type = $declaration_specifiers;
}
if ($return_type =~ s/( with.*)$//) {
my $specifier = $1;
$parameter_list =~ s/function/function$specifier/;
}
if ($return_type =~ s/inline//g) {
$return_type = join(' ', split(' ', $return_type));
my $and = $parameter_list =~ s/function with/function/ ? ' and' : '';
$parameter_list =~ s/function/function with suggestion to be as fast as possible$and/;
}
if ($return_type =~ s/_Noreturn//g) {
$return_type = join(' ', split(' ', $return_type));
$parameter_list =~ s/ returning$//;
if ($return_type eq 'void') {
$return_type = "which doesn't return to its caller";
} else {
$return_type = "which shouldn't return to its caller yet does mysteriously return $return_type";
}
}
if (ref $name eq 'ARRAY') {
my @a = @$name;
$name = shift @a;
$parameter_list = join(' ', @a) . " $parameter_list";
}
$return = "\nLet $name be a $parameter_list $return_type.\n";
my $statements = join('', @{$item{'compound_statement(?)'}});
$return .= "When called, the function will ^L$statements";
}
block_item_list:
block_item(s)
{
if (@{$item{'block_item(s)'}} == 1) {
$return = $item{'block_item(s)'}->[0];
} elsif (@{$item{'block_item(s)'}} == 2) {
my $first = $item{'block_item(s)'}->[0];
my $second = $item{'block_item(s)'}->[1];
$first =~ s/\.?\s*$//;
$return = "$first and then ^L$second";
} else {
my $last = pop @{$item{'block_item(s)'}};
$return = join('Then ^L', @{$item{'block_item(s)'}}) . "Finally, ^L$last";
}
}
block_item:
declaration
| statement[context => "$arg{context}|block item"]
| preproc
| comment
compound_statement:
'{' block_item_list(s?) '}'
{
my $block_items = join('', @{$item{'block_item_list(s?)'}});
if ($arg{context} =~ /block item/
and $arg{context} !~ /do loop$/
and $arg{context} !~ /if statement$/
and $arg{context} !~ /switch$/
and $arg{context} !~ /else block$/) {
$return = "Begin new block.\n";
}
if ($block_items) {
$return .= $block_items;
} else {
$return .= "Do nothing.\n";
}
if ($arg{context} =~ /block item/
and $arg{context} !~ /do loop$/
and $arg{context} !~ /if statement$/
and $arg{context} !~ /switch$/
and $arg{context} !~ /else block$/) {
$return .= "End block.\n";
}
if ($arg{context}
and $arg{context} !~ /do loop$/
and $arg{context} !~ /if statement$/
and $arg{context} !~ /else block$/
and $arg{context} !~ /case$/
and $arg{context} !~ /function definition statement$/
and $arg{context} !~ /function definition$/) {
my @contexts = split /\|/, $arg{context};
my $context = pop @contexts;
$return .= "End $context.\n" unless $context eq 'block item';
}
1;
}
statement_list:
comment(?) preproc[matchrule => 'statement'](?) statement[context => undef]
{
my $preproc = join('',@{$item{'preproc(?)'}});
my $comment = join('',@{$item{'comment(?)'}});
$return = $item{statement};
if ($comment) { $return = $comment . $return; }
if ($preproc) { $return = $preproc . $return; }
}
statement_list(?)
{ $return .= join('',@{$item{'statement_list(?)'}}); }
statement:
jump_statement
| compound_statement
| iteration_statement
| selection_statement
| labeled_statement
| expression_statement
iteration_statement:
'for' '(' <commit> for_initialization(?) for_expression(?) for_increment(?) ')'
statement[context => 'for loop']
{
my $initialization = join('', @{$item{'for_initialization(?)'}});
my $expression = join('',@{$item{'for_expression(?)'}});
my $increment = join('',@{$item{'for_increment(?)'}});
if ($initialization) {
$return .= "Prepare a loop by ^L$initialization, then ^L";
}
if (length $expression) {
if ($expression =~ /^(\d+)$/) {
if($expression == 0) {
$return .= "Never repeatedly ^L";
} else {
$return .= "Repeatedly ^L";
}
} else {
my $expression = ::istrue $expression;
$return .= "For as long as ^L$expression, ^L";
}
} else {
$return .= "Repeatedly ^L";
}
$return .= $item{statement};
if ($increment) {
$return =~ s/End for loop.$//;
$return .= "After each iteration, ^L$increment.\n";
}
}
| 'while' '(' <commit> expression[context => 'while conditional'] ')' statement[context => 'while loop']
{
if ($item{expression} =~ /(^\d+$)/) {
if ($1 == 0) {
$return = "Never repeatedly ^L";
} else {
$return = "Repeatedly ^L";
}
} else {
my $expression = ::istrue $item{expression};
$return = "While ^L$expression, ^L";
}
if ($item{statement}) {
$return .= $item{statement} . "\n";
} else {
$return .= "do nothing.\n";
}
}
| 'do' statement[context => 'do loop'] 'while' '(' expression[context => 'do while conditional'] ')' ';'
{
$item{statement} =~ s/^do nothing/nothing/i;
$return = "Do the following:^L $item{statement}";
if ($item{expression} =~ /(^\d+$)/) {
if ($1 == 0) {
$return .= "Do this once.\n";
} else {
$return .= "Do this repeatedly.\n";
}
} else {
my $expression = ::istrue $item{expression};
$return .= "Do this as long as ^L$expression.\n";
}
}
for_initialization:
declaration[context => 'for init']
| expression_statement[context => 'for init']
for_expression:
expression_statement[context => 'for conditional']
for_increment:
expression[context => 'for increment statement']
selection_statement:
'if' <commit> '(' expression[context => 'if conditional'] ')' statement[context => "$arg{context}|if statement"]
{
if ($item{expression} =~ /^(\d+)$/) {
if ($1 == 0) {
$return = "Never ";
} else {
$return = "Always ";
}
} else {
my $expression = ::istrue $item{expression};
$return = "If ^L$expression then ";
}
$return .= "^L$item{statement}";
}
('else' statement[context => "$arg{context}|else block"]
{ $return = "Otherwise, ^L$item{statement}"; }
)(?)
{ $return .= join('',@{$item[-1]}); }
| 'switch' '(' expression[context => 'switch conditional'] ')' statement[context => "$arg{context}|switch"]
{
$return = "When given the expression ^L$item{expression}, ^L$item{statement}";
}
jump_statement:
'break' ';'
{
if ($arg{context} =~ /switch/ or $arg{context} =~ /case/) {
$return = "Exit switch block.\n";
} elsif (length $arg{context}) {
my ($context) = $arg{context} =~ /([^|]+)/;
$return = "Break from the $context.\n";
} else {
$return = "Break from the current block.\n";
}
}
| 'continue' ';'
{ $return = "Return to the top of the current loop.\n"; }
| 'return' <commit> expression[context => "$arg{context}|return expression"](?) ';'
{
my $expression = join('', @{$item{'expression(?)'}});
if (length $expression) {
$return = "Return ^L$expression.\n";
} else {
$return = "Return no value.\n";
}
}
| 'goto' <commit> identifier ';' comment(?)
{
$return = "Go to the label named $item{identifier}.\n";
$return .= join('', @{$item{'comment(?)'}});
}
expression_statement:
expression[context => "$arg{context}|statement"](?) ';'
{
my $expression = join('',@{$item[1]});
if (not length $expression) {
if ($arg{context} eq 'label'
or $arg{context} eq 'for init'
or $arg{context} eq 'for conditional') {
$return = "";
} else {
$return = "Do nothing.\n";
}
} else {
$return = $expression;
$return .= ".\n" unless $arg{context} =~ /for (init|conditional)$/;
}
}
labeled_statement:
identifier ':' statement[context => 'label'] (';')(?)
{ $return = "Let there be a label $item{identifier}.\n$item{statement}"; }
| ('case' constant_expression
{ $return = $item{constant_expression}; }
':')(s)
{
my @items = @{$item[1]};
if (@items <= 2) {
$return = join(' or ', @{$item[1]});
} else {
my $last = pop @items;
$return = join(', ', @items) . " or $last";
}
}
(statement[context => "$arg{context}|case"])(s)
{
my $last = pop @{$item[-1]};
my $statements = join('', @{$item[-1]});
if (length $statements and $statements !~ /Exit switch block\.\s*$/) {
$statements .= "Fall through to the next case.\n";
} elsif (not length $statements and not $last) {
$statements = "Do nothing.\n";
}
$return = "If it has the value $item[-2], ^L$statements$last";
}
| 'default' ':' statement
{ $return = "In the default case, ^L$item{statement}"; }
expression:
<leftop: assignment_expression ',' assignment_expression>
{
if ($arg{context} eq 'for increment statement'
or $arg{context} eq 'for init') {
$return = join(', then ', @{$item[-1]});
} elsif ( $arg{context} =~ /conditional/) {
$return = join(' and the result discarded and ', @{$item[-1]});
} else {
$return .= "Evaluate " if @{$item[-1]} > 1;
$return .= join(" and discard the result and then evaluate ^L", @{$item[-1]});
}
}
assignment_expression:
unary_expression[context => 'assignment expression']
assignment_operator
assignment_expression[context => 'assignment expression']
{
my $assignment_expression = $item{assignment_expression};
my $assignment_operator = $item{assignment_operator};
if (ref $assignment_operator eq 'ARRAY') {
$return .= "${$item{assignment_operator}}[0] $item{unary_expression} ";
${$item{assignment_operator}}[1] =~ s/the value/the result of the expression/ if $assignment_expression =~ / /;
$return .= "${$item{assignment_operator}}[1] " if $assignment_expression !~ /the result of/;
$return .= $assignment_expression;
} else {
$return = "$item{unary_expression} $assignment_operator $assignment_expression";
}
}
| conditional_expression
conditional_expression:
logical_OR_AND_expression conditional_ternary_expression
{
if ($item{conditional_ternary_expression}) {
my $op1 = $item{conditional_ternary_expression}->[0];
my $op2 = $item{conditional_ternary_expression}->[1];
my $expression = ::istrue $item{logical_OR_AND_expression};
if ($arg{context} =~ /initializer expression$/) {
$return = "$op1 if $expression otherwise to $op2";
} elsif ($arg{context} =~ /assignment expression$/) {
$return = "$op1 if $expression otherwise the value $op2";
} else {
$return = "$op1 if $expression otherwise $op2";
}
} else {
$return = $item{logical_OR_AND_expression};
}
}
conditional_ternary_expression:
'?' expression ':' conditional_expression
{ $return = [$item{expression}, $item{conditional_expression}]; }
| {""}
assignment_operator:
'='
{
if ($arg{context} =~ /for init/) {
$return = ['assigning to^L', 'the value^L' ];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Assign to^L', 'the value^L' ];
} else {
$return = 'which is assigned to be^L';
}
}
| '+='
{
if ($arg{context} =~ /for init/) {
$return = ['incrementing^L','by^L'];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Increment^L','by^L'];
} else {
$return = 'which is incremented by^L';
}
}
| '-='
{
if ($arg{context} =~ /for init/) {
$return = ['decrementing^L' , 'by^L'];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Decrement^L', 'by^L'];
} else {
$return = 'which is decremented by^L';
}
}
| '*='
{
if ($arg{context} =~ /for init/) {
$return = ['multiplying^L' , 'by^L'];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Multiply^L' , 'by^L'];
} else {
$return = 'which is multiplied by^L';
}
}
| '/='
{
if ($arg{context} =~ /for init/) {
$return = ['dividing^L' , 'by^L' ];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Divide^L' , 'by^L' ];
} else {
$return = 'which is divided by^L';
}
}
| '%='
{
if ($arg{context} =~ /for init/) {
$return = ['reducing^L', 'to modulo ^L'] ;
} elsif ($arg{context} =~ /statement$/) {
$return = ['Reduce^L', 'to modulo ^L'] ;
} else {
$return = 'which is reduced to modulo^L';
}
}
| '<<='
{
if ($arg{context} =~ /for init/) {
$return = ['bit-shifting^L', 'left by^L'];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Bit-shift^L', 'left by^L'];
} else {
$return = 'which is bit-shifted left by^L';
}
}
| '>>='
{
if ($arg{context} =~ /for init/) {
$return = ['bit-shifting^L', 'right by^L'];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Bit-shift^L', 'right by^L'];
} else {
$return = 'which is bit-shifted right by^L';
}
}
| '&='
{
if ($arg{context} =~ /for init/) {
$return = ['bitwise-ANDing^L', 'by^L' ];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Bitwise-AND^L', 'by^L' ];
} else {
$return = 'which is bitwise-ANDed by^L';
}
}
| '^='
{
if ($arg{context} =~ /for init/) {
$return = ['exclusive-ORing^L','by^L'];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Exclusive-OR^L','by^L'];
} else {
$return = 'which is exclusive-ORed by^L';
}
}
| '|='
{
if ($arg{context} =~ /for init/) {
$return = ['bitwise-ORing^L', 'by^L'];
} elsif ($arg{context} =~ /statement$/) {
$return = ['Bitwise-OR^L', 'by^L'];
} else {
$return = 'which is bitwise-ORed by^L';
}
}
constant_expression:
conditional_expression
logical_OR_AND_expression:
<leftop:
rel_add_mul_shift_expression
log_OR_AND_bit_or_and_eq
rel_add_mul_shift_expression[context => 'logical_OR_AND_expression']>
{
my $expression = join('', @{$item[1]});
if($arg{context} =~ /initializer expression$/
and $expression =~ / /
and $expression !~ /^the .*? constant \S+$/i
and $expression !~ /the size of/i
and $expression !~ /the offset/i
and $expression !~ /the address of/i
and $expression !~ /^the result of the/) {
$return = 'the result of the expression ^L';
}
$return .= $expression;
}
log_OR_AND_bit_or_and_eq:
'||' { $return = ' or ^L'; }
| '&&' { $return = ' and ^L'; }
| '|' { $return = ' bitwise-ORed by ^L'; }
| '&' { $return = ' bitwise-ANDed by ^L'; }
| '^' { $return = ' bitwise-XORed by ^L';}
| '==' { $return = ' is equal to ^L'; }
| '!=' { $return = ' is not equal to ^L'; }
rel_mul_add_ex_op:
'+' { $return = ' plus ^L'; }
| '-' { $return = ' minus ^L'; }
| '*' { $return = ' times ^L'; }
| '/' { $return = ' divided by ^L'; }
| '%' { $return = ' modulo ^L'; }
| '<<' { $return = ' shifted left by ^L'; }
| '>>' { $return = ' shifted right by ^L'; }
| '>=' { $return = ' is greater than or equal to ^L'; }
| "<=" { $return = ' is less than or equal to ^L'; }
| '>' { $return = ' is greater than ^L'; }
| '<' { $return = ' is less than ^L'; }
unary_operator:
'&' { $return = 'the address of ^L'; }
| '*' { $return = 'the dereference of ^L'; }
| '+' { $return = ''; }
| '-' ...identifier { $return = 'negative ^L'; }
| '-' { $return = 'minus ^L'; }
| '~' { $return = "the one's complement of ^L"; }
| '!' '!' { $return = 'the normalized boolean value of ^L'; }
| '!'
{
if ($arg{context} =~ /conditional/) {
$return = ['', ' is false'];
} else {
$return = 'the logical negation of ^L';
}
}
rel_add_mul_shift_expression:
cast_expression ...';'
{ $return = $item{cast_expression}; }
| <leftop: cast_expression rel_mul_add_ex_op cast_expression>
{ $return = join('', @{$item[1]}); }
closure:
',' | ';' | ')'
cast_expression:
'(' type_name ')' cast_expression[context => 'recast']
{ $return = "$item{cast_expression} converted to $item{type_name}"; }
| unary_expression
{ $return = $item{unary_expression}; }
Static_assert:
'_Static_assert'
| 'static_assert'
static_assert_declaration:
Static_assert '(' constant_expression[context => 'static assert'] ',' string ')' ';'
{
my $expression = ::istrue $item{constant_expression};
$return = "Halt compilation and produce the diagnostic $item{string} unless $expression.\n";
}
declaration_list:
preproc[context => 'statement'](?) declaration(s)
{ $return = join('', @{$item{'preproc(?)'}}) . join('', @{$item{'declaration(s)'}}); }
declaration:
declaration_specifiers init_declarator_list(?) ';'
{
my @init_list = defined $item{'init_declarator_list(?)'}->[0] ? @{$item{'init_declarator_list(?)'}->[0]} : ('');
my $typedef = $item{declaration_specifiers} =~ s/^type definition of //;
my $noreturn = $item{declaration_specifiers} =~ s/_Noreturn//g;
$item{declaration_specifiers} = join(' ', split(' ', $item{declaration_specifiers}));
if ($noreturn) {
if($item{declaration_specifiers} eq 'void') {
$item{declaration_specifiers} = "which doesn't return to its caller";
} else {
$item{declaration_specifiers} = "which shouldn't return to its caller yet does mysteriously return $item{declaration_specifiers}";
}
}
my $inits = 0;
while (@init_list) {
$inits++;
if (not $arg{context} eq 'struct member') {
if ($arg{context} eq 'for init') {
$return .= "declaring ";
} else {
$return .= "Declare ";
}
}
my @args = ::flatten shift @init_list;
my ($first_qualifier, $first_initializer);
my $first_identifier = shift @args;
my @identifiers = ($first_identifier) unless not length $first_identifier;
foreach my $arg (@args) {
if ($arg =~ /initialized/) {
$first_initializer .= (length $first_initializer ? ' ' : '') . $arg;
} else {
$first_qualifier .= (length $first_qualifier ? ' ' : '') . $arg;
}
}
my @initializers;
if ($first_initializer) {
push @initializers, [ $first_identifier, $first_initializer ];
}
for (my $i = 0; $i < @init_list; $i++) {
@args = ::flatten $init_list[$i];
my ($qualifier, $initializer);
my $identifier = shift @args;
foreach my $arg (@args) {
if ($arg =~ /initialized/) {
$initializer .= (length $initializer ? ' ' : '') . $arg;
} else {
$qualifier .= (length $qualifier ? ' ' : '') . $arg;
}
}
next unless $qualifier eq $first_qualifier;
push @identifiers, $identifier;
if ($initializer) {
push @initializers, [ $identifier, $initializer ];
}
splice @init_list, $i--, 1;
}
if ($arg{context} eq 'struct member') {
if ($inits > 1 and not @init_list) {
$return .= ' and ';
} elsif ($inits > 1) {
$return .= ', ';
}
my $and = @identifiers > 1 ? ' and ' : '';
my $comma = '';
for (my $i = 0; $i < @identifiers; $i++) {
if ($i == @identifiers - 1) {
$return .= "$and$identifiers[$i]";
} else {
$return .= "$comma$identifiers[$i]";
$comma = ', ';
}
}
$return .= ' as ' unless not @identifiers;
if ($first_qualifier) {
if ($first_qualifier =~ /bit\-field/) {
$first_qualifier = "$item{declaration_specifiers} $first_qualifier";
$item{declaration_specifiers} = '';
}
if (@identifiers == 1 and $first_qualifier !~ /^(an|a)\s+/) {
$return .= $first_qualifier =~ m/^[aeiou]/ ? 'an ' : 'a ';
} elsif (@identifiers > 1 and not $typedef) {
$first_qualifier =~ s/pointer/pointers/;
$first_qualifier =~ s/an array/arrays/;
}
$return .= "$first_qualifier";
$return .= " $item{declaration_specifiers}" if $item{declaration_specifiers};
} else {
if (@identifiers == 1 and $item{declaration_specifiers} !~ /^(an|a)\s+/) {
$return .= $item{declaration_specifiers} =~ m/^[aeiou]/ ? 'an ' : 'a ';
}
$return .= $item{declaration_specifiers};
}
} else {
my $and = @identifiers > 1 ? ' and ' : '';
my $comma = '';
for (my $i = 0; $i < @identifiers; $i++) {
if ($i == @identifiers - 1) {
$return .= "$and$identifiers[$i]";
} else {
$return .= "$comma$identifiers[$i]";
$comma = ', ';
}
}
if ($typedef) {
$return .= ' each' if @identifiers > 1;
$return .= ' as another name for ';
push @typedefs, @identifiers;
} else {
$return .= ' as ' unless not @identifiers;
}
if ($first_qualifier) {
if ($noreturn) {
$first_qualifier =~ s/ returning$//;
}
if (@identifiers == 1 and $first_qualifier !~ /^(an|a)\s+/) {
$return .= $first_qualifier =~ m/^[aeiou]/ ? 'an ' : 'a ';
} elsif (@identifiers > 1 and not $typedef) {
$first_qualifier =~ s/pointer/pointers/;
$first_qualifier =~ s/an array/arrays/;
}
$return .= "$first_qualifier ";
$return .= $item{declaration_specifiers};
} else {
if (@identifiers == 1 and $item{declaration_specifiers} !~ /^(an|a)\s+/) {
$return .= $item{declaration_specifiers} =~ m/^[aeiou]/ ? 'an ' : 'a ';
}
$return .= $item{declaration_specifiers};
}
if (@initializers) {
if (@identifiers > 1) {
$return .= ".\nInitialize ";
@initializers = sort { $a->[1] cmp $b->[1] } @initializers;
my ($and, $comma);
for (my $i = 0; $i < @initializers; $i++) {
my ($identifier, $initializer) = @{$initializers[$i]};
if ($i < @initializers - 1 and $initializer eq $initializers[$i + 1]->[1]) {
$return .= "$comma$identifier";
$comma = ', ';
$and = ' and ';
} else {
$initializer =~ s/^initialized to \^L//;
$return .= "$and$identifier to $initializer";
if ($i < @initializers - 2) {
$and = $comma = ', ';
} else {
$and = ' and ';
}
}
}
} else {
$return .= " $initializers[0]->[1]";
}
}
$return =~ s/,$//;
$return .= ".\n" unless $arg{context} eq 'for init';
}
}
}
| static_assert_declaration
init_declarator_list:
<leftop: init_declarator ',' init_declarator>
init_declarator:
declarator[context => "$arg{context}|init_declarator"]
{
$return = $item{declarator};
}
('=' initializer)(?)
{
my $init = join('',@{$item[-1]});
if (length $init) {
$return = [$item{declarator}, "initialized to ^L$init"];
}
}
initializer:
designation initializer
{ $return = "$item[1] $item[2]"; }
| comment(?) assignment_expression[context => "$arg{context}|initializer expression"] comment(?)
{
$return = $item[2];
if (join('',@{$item[1]})) {
$return = '['.join('',@{$item[1]}).']' . $return;
}
if (join('',@{$item[1]})) {
$return .= join('',@{$item[-1]});
}
}
| '{' comment(?) initializer_list (',' )(?) '}'
{ $return = '{ ' . $item{'initializer_list'} . ' }'; }
initializer_list:
<leftop: initializer ',' initializer >
{ $return = join(', ', @{$item[1]}); }
designation:
designator_list '='
{ $return = $item{designator_list}; }
designator_list:
designator(s)
{
$return = join(' of ', reverse @{$item{'designator(s)'}});
$return .= ' set to';
}
designator:
'[' constant_expression ']'
{
my $expression = $item{constant_expression};
if ($expression =~ /^\d+$/) {
$expression++;
my ($last_digit) = $expression =~ /(\d)$/;
if ($last_digit == 1) {
if ($expression =~ /11$/) {
$expression .= 'th';
} else {
$expression .= 'st';
}
} elsif ($last_digit == 2) {
$expression .= 'nd';
} elsif ($last_digit == 3) {
$expression .= 'rd';
} else {
$expression .= 'th';
}
$expression = "the $expression element";
} else {
$expression = "the element at location ^L$expression^L";
}
$return = $expression;
}
| '.' identifier
{ $return = "the member $item{identifier}"; }
unary_expression:
postfix_expression
{ $return = $item{postfix_expression}; }
| '++' unary_expression
{
if ($arg{context} =~ /for init/) {
$return = "pre-incrementing $item{unary_expression}";
} elsif ($arg{context} =~ /(conditional|expression)/) {
if ($item{unary_expression} =~ s/^the member//) {
$return = "the pre-incremented member $item{unary_expression}";
} elsif ($item{unary_expression} =~ s/^the element//) {
$return = "the pre-incremented element $item{unary_expression}";
}else {
$return = "pre-incremented $item{unary_expression}";
}
} else {
$return = "pre-increment $item{unary_expression}";
}
}
| '--' unary_expression
{
if ($arg{context} =~ /for init/) {
$return = "pre-decrementing $item{unary_expression}";
} elsif ($arg{context} =~ /(conditional|expression)/) {
if ($item{unary_expression} =~ s/^the member//) {
$return = "the pre-decremented member $item{unary_expression}";
} elsif ($item{unary_expression} =~ s/^the element//) {
$return = "the pre-decremented element $item{unary_expression}";
} else {
$return = "pre-decremented $item{unary_expression}";
}
} else {
$return = "Pre-decrement $item{unary_expression}";
}
}
| unary_operator cast_expression
{
if (ref $item{unary_operator} eq 'ARRAY') {
$return = $item{unary_operator}->[0] . $item{cast_expression} . $item{unary_operator}->[1];
} else {
$return = $item{unary_operator} . $item{cast_expression};
}
}
| 'sizeof' unary_expression[context => 'sizeof']
{
if ($arg{context} =~ /statement$/) {
$return = "Evaluate and discard the size of ^L$item{unary_expression}";
} else {
$return = "the size of ^L$item{unary_expression}";
}
}
| 'sizeof' '(' type_name[context => 'sizeof'] ')'
{
if ($arg{context} =~ /statement$/) {
$return = "Evaluate and discard the size of the type $item{type_name}";
} else {
$return = "the size of the type $item{type_name}";
}
}
| 'sizeof' '(' assignment_expression[context => 'sizeof'] ')'
{
if ($arg{context} =~ /statement$/) {
$return = "Evaluate and discard the size of the type of the expression (^L$item{assignment_expression})";
} else {
$return = "the size of the type of the expression (^L$item{assignment_expression})";
}
}
| Alignof '(' type_name ')'
{ $return = "the alignment of the type $item{type_name}"; }
| 'offsetof' '(' type_name[context => 'offsetof'] ',' identifier ')'
{
$return = "the offset, in bytes, of member $item{identifier} from the beginning of $item{type_name}";
}
Alignof:
'_Alignof'
| 'alignof'
postfix_productions:
'(' argument_expression_list(?) ')' postfix_productions[context => 'function call'](?)
{
my $postfix = $item[-1]->[0];
$arg{primary_expression} =~ s/^Evaluate the expression/resulting from the expression/;
if($arg{context} =~ /statement$/) {
$return = "Call the function $arg{primary_expression}";
} else {
$return = "the result of the function $arg{primary_expression}";
}
# To discriminate between macros and functions.
foreach (@macros) {
if ($arg{primary_expression} eq $_) {
$return =~ s/Call/Insert/;
$return =~ s/function/macro/;
}
}
my $arg_exp_list = join('',@{$item{'argument_expression_list(?)'}});
if (length $arg_exp_list) {
$return .= " with argument$arg_exp_list";
}
if ($postfix) {
$return =~ s/^(Call|Insert)/the result of/;
$return = "$postfix $return";
}
1;
}
| '[' expression[context => 'array address'] ']' postfix_productions[context => "$arg{context}|array address"](?)
{
my $expression = $item[2];
my $postfix = $item[-1]->[0];
if (length $expression) {
if ($expression =~ /^\d+$/) {
$expression++;
my ($last_digit) = $expression =~ /(\d)$/;
if ($last_digit == 1) {
if ($expression =~ /11$/) {
$expression .= 'th';
} else {
$expression .= 'st';
}
} elsif ($last_digit == 2) {
$expression .= 'nd';
} elsif ($last_digit == 3) {
$expression .= 'rd';
} else {
$expression .= 'th';
}
if ($arg{context} eq 'function call') {
$return = "the $expression element of^L";
} else {
$return = "the $expression element of^L";
$return .= " $arg{primary_expression}" if $arg{primary_expression};
}
} elsif ($expression =~ /^-\s*\d+$/) {
$expression *= -1;
my $plural = $expression == 1 ? '' : 's';
$return = "the element $expression element$plural backwards from where ^L$arg{primary_expression} points^L";
} else {
$return = "the element at location ^L$expression of^L";
$return .= " $arg{primary_expression}" if $arg{primary_expression};
}
}
if ($postfix) {
$return = "$postfix $return";
$return =~ s/the post-([^ ]+) the/the post-$1/g;
}
}
| '.' identifier postfix_productions[context => "$arg{context}|struct access"](?)
{
my $identifier = $item[-2];
my $postfix = $item[-1]->[0];
if ($postfix) {
if (ref $postfix eq 'ARRAY') {
$return = "$postfix->[0] the member $identifier $postfix->[1] of";
} else {
if ($arg{context} =~ /conditional/ or $arg{context} =~ /assignment expression/) {
$return = "$postfix member $identifier of";
$return .= " the" unless $arg{context} =~ /array address/;
} else {
$postfix =~ s/ the(\^L)?$/$1/;
$return = "$postfix the member $identifier of";
$return .= " the" unless $arg{context} =~ /array address/;
}
if ($arg{primary_expression}) {
$return =~ s/ the(\^L)?$/$1/;
$return .= " ^L$arg{primary_expression}"
}
}
} else {
if ($arg{context} =~ /array address/) {
$return = "the member $identifier of^L";
} else {
$return = "the member $identifier of the^L";
if ($arg{primary_expression}) {
$return =~ s/ the(\^L)?$/$1/;
$return .= " $arg{primary_expression}";
}
}
}
1;
}
| '->' identifier postfix_productions[context => "$arg{context}|struct access"](?)
{
my $identifier = $item[-2];
my $postfix = $item[-1]->[0];
if ($postfix) {
if (ref $postfix eq 'ARRAY') {
$return = "$postfix->[0] the member $identifier $postfix->[1] of the structure pointed to by^L";
} else {
if ($arg{context} =~ /conditional/ or $arg{context} =~ /assignment expression/) {
$return = "$postfix member $identifier of the structure pointed to by the^L";
} else {
$postfix =~ s/ the(\^L)?$/$1/;
$return = "$postfix the member $identifier of the structure pointed to by the^L";
}
}
} else {
$return = "the member $identifier of the structure pointed to by the^L";
}
if ($arg{primary_expression}) {
$return =~ s/ the(\^L)?$/$1/;
$return .= " $arg{primary_expression}";
}
1;
}
| ('++')(s)
{
my $increment = join('',@{$item[-1]});
if ($increment) {
if ($arg{context} =~ /(struct access|array address)/) {
if ($arg{context} =~ /conditional/ or $arg{context} =~ /assignment expression/) {
$return = "the post-incremented";
} else {
$return = "post-increment";
}
} elsif ($arg{context} =~ /for init/) {
$return = ['incrementing', 'by one'];
} elsif ($arg{context} =~ /(conditional|expression)/) {
$return = "post-incremented $arg{primary_expression}";
} else {
$return = ['increment', 'by one'];
}
}
}
| ('--')(s)
{
my $increment = join('',@{$item[-1]});
if ($increment) {
if ($arg{context} =~ /(struct access|array address)/) {
if ($arg{context} =~ /conditional/ or $arg{context} =~ /assignment expression/) {
$return = "the post-decremented";
} else {
$return = "post-decrement";
}
} elsif ($arg{context} =~ /for init/) {
$return = ['decrementing', 'by one'];
} elsif ($arg{context} =~ /(conditional|expression)/) {
$return = "post-decremented $arg{primary_expression}";
} else {
$return = ['decrement', 'by one'];
}
}
}
| {""}
postfix_expression:
'(' type_name ')' '{' initializer_list '}' postfix_productions[context => "$arg{context}|compound literal"](?)
{
my $postfix = $item[-1]->[0];
$return = "A compound-literal of type $item{type_name} initialized to { $item{initializer_list} }";
$return = "$postfix $return" if $postfix;
}
| primary_expression postfix_productions[primary_expression => $item[1], context => $arg{context}]
{
my $postfix_productions = $item{'postfix_productions'};
if (ref $postfix_productions eq 'ARRAY') {
$return = "$postfix_productions->[0] $item{primary_expression} $postfix_productions->[1]";
} elsif (length $postfix_productions) {
$return = $postfix_productions;
} elsif (length $item{primary_expression}) {
$return = $item{primary_expression};
} else {
$return = undef;
}
}
postfix_suffix:
'[' expression ']'
| '.' identifier
| '->' identifier
| '++'
| '--'
argument_expression_list:
<leftop: assignment_expression[context => 'function argument'] ',' assignment_expression[context => 'function argument']>
{
my @arg_exp_list = @{$item[1]};
my $last = '';
if (@arg_exp_list > 2) {
$last = pop @arg_exp_list;
$return = 's ' . join(', ^L', @arg_exp_list) . " and ^L$last";
} elsif (@arg_exp_list == 2 ) {
$return = "s ^L$arg_exp_list[0] and ^L$arg_exp_list[1]";
} else {
if (length $arg_exp_list[0]) {
$return = " ^L$arg_exp_list[0]";
} else {
$return = '';
}
}
}
narrow_closure:
';' | ',' | '->'
primary_expression:
'(' expression[context => "$arg{context}|expression"] ')' (...narrow_closure)(?)
{
my $expression = $item{expression} ;
my $repeats = 1;
if ($expression =~ /^The expression (\(+)/) {
$repeats = (length $1) + 1;
$expression =~ s/^The expression \(+//;
}
$expression .= ')';
if ($arg{context} =~ /statement$/) {
$return = "Evaluate the expression ";
} else {
#$return = "The result of the expression ";
}
$return .= '(' x $repeats;
$return .= "^L$expression";
}
| constant
| string
| identifier
| generic_selection
| {} # nothing
generic_selection:
'_Generic' '(' assignment_expression ',' generic_assoc_list ')'
{ $return = "a generic-selection on $item{assignment_expression} yielding $item{generic_assoc_list}"; }
generic_assoc_list:
<leftop: generic_association ',' generic_association>
{
if (@{$item[-1]} == 1) {
$return = $item[-1]->[0];
} else {
my $last = pop @{$item[-1]};
$return = join(', ', @{$item[-1]}) . " and $last";
}
}
generic_association:
type_name ':' assignment_expression
{ $return = "$item{assignment_expression} in the case that it has type $item{type_name}"; }
| 'default' ':' assignment_expression
{ $return = "$item{assignment_expression} in the default case"; }
Alignas:
'_Alignas'
| 'alignas'
alignment_specifier:
Alignas '(' type_name ')'
{
$return = "with alignment of the type $item{type_name}";
}
| Alignas '(' constant_expression ')'
{
my $plural = $item{constant_expression} != 1 ? 's' : '';
$return = "with alignment of $item{constant_expression} byte$plural between objects";
}
declarator:
direct_declarator(s)
{
my @direct_declarator = @{$item{'direct_declarator(s)'}};
if (@direct_declarator == 1) {
$return = $direct_declarator[0];
} else {
$return = $item{'direct_declarator(s)'};
}
}
| pointer direct_declarator(s)
{
push @{$item{'direct_declarator(s)'}}, $item{pointer};
$return = $item{'direct_declarator(s)'};
}
direct_declarator:
identifier ':' constant
{
my $bits = $item{constant} == 1 ? "$item{constant} bit" : "$item{constant} bits";
$return = [$item{identifier}, "bit-field of $bits"];
}
| identifier[context => 'direct_declarator'] array_declarator(s?)
{
if (@{$item{'array_declarator(s?)'}}) {
$return = [$item{identifier}, join(' ', @{$item{'array_declarator(s?)'}})];
} else {
$return = $item{identifier};
}
}
| '(' declarator ')' array_declarator(s)
{
push @{$item{declarator}}, join(' ', @{$item{'array_declarator(s)'}});
$return = $item{declarator};
}
| '(' parameter_type_list ')'
{ $return = "function taking $item{parameter_type_list} and returning"; }
| '(' declarator array_declarator(s) ')'
{ $return = $item{'declarator'} . join(' ', @{$item{'array_declarator(s)'}}) }
| '(' declarator ')'
{ $return = $item{declarator}; }
array_qualifiers:
type_qualifier_list array_qualifiers(?)
{
$return = $item{'type_qualifier_list'};
my $qualifiers = join('', @{$item{'array_qualifiers(?)'}});
$return .= " $qualifiers" if $qualifiers;
}
| 'static' array_qualifiers(?)
{
$return = $item[1];
my $qualifiers = join('', @{$item{'array_qualifiers(?)'}});
$return .= " $qualifiers" if $qualifiers;
}
array_declarator:
'[' array_qualifiers(?) assignment_expression(?) ']'
{
my $size;
if (@{$item{'assignment_expression(?)'}}) {
$size = join('', @{$item{'assignment_expression(?)'}});
if ($size =~ /^(unsigned|long)*\s*1$/) {
$size = "$size element";
} else {
$size = "$size elements";
}
} else {
if ($arg{context} =~ /struct member/) {
$size = 'flexible length';
} else {
$size = 'unspecified length';
}
}
my $qualifiers = join('', @{$item{'array_qualifiers(?)'}});
if ($qualifiers) {
if($qualifiers =~ s/static//g) {
$qualifiers = join(' ', split(' ', $qualifiers));
if($qualifiers) {
$return = "a $qualifiers array ";
} else {
$return = "an array ";
}
$return .= "with optimization hint to provide access to the first element of $size of";
} else {
$return = "an $qualifiers array of $size of";
}
} else {
$return = "an array of $size of";
}
}
| '[' '*' ']'
{ $return = 'an array of variable length of unspecified size of'; }
identifier_list:
(identifier ',')(s?) identifier
{
my @identifier_list = @{$item[1]};
if ($#identifier_list > 1) {
$return = join(', ', @identifier_list) . ' and ' . $item{identifier};
} elsif ($#identifier_list == 1) {
$return = $identifier_list[1] . ' and ' . $item{identifier};
} else {
$return = $item{identifier};
}
}
parameter_type_list:
parameter_list
parameter_list:
<leftop: parameter_declaration ',' parameter_declaration>
{
my @parameter_list = @{$item[1]};
my $comma = '';
for (my $i = 0; $i < @parameter_list; $i++) {
$return .= $comma;
if (ref $parameter_list[$i] eq 'ARRAY') {
my @list = ::flatten @{$parameter_list[$i]};
if (@list == 0) {
$return = "no arguments";
} elsif (@list == 1) {
if ($list[0] eq 'void') {
$return = "no arguments";
} else {
$return .= $list[0];
}
} else {
push @list, shift @list;
if ($list[0] =~ /^`.*`$/) {
my $identifier = shift @list;
$return .= "$identifier as ";
$return .= join(' ', @list);
} else {
$return .= join(' ', @list);
}
}
} else {
$return .= $parameter_list[$i];
}
if ($i == $#parameter_list - 1) {
$comma = ' and ';
} else {
$comma = ', ';
}
}
}
parameter_declaration:
declaration_specifiers declarator
{ $return = [$item{declaration_specifiers}, $item{declarator}]; }
| '...'
{ $return = "variadic arguments"; }
| declaration_specifiers abstract_declarator(?)
{ $return = [$item{declaration_specifiers}, $item{'abstract_declarator(?)'}]; }
| ''
{ $return = "unspecified arguments"; }
abstract_declarator:
pointer(?) direct_abstract_declarator(s)
{
my $pointer = join(' ', @{$item{'pointer(?)'}});
$return = "$pointer " if $pointer;
$return .= join(' ', @{$item{'direct_abstract_declarator(s)'}});
}
| pointer
direct_abstract_declarator:
'(' abstract_declarator ')'
{ $return = $item{abstract_declarator}; }
| '[' ']'
{ $return = 'array of unspecified length of'; }
| '[' '*' ']'
{ $return = 'array of variable length of unspecified size of'; }
| '[' array_qualifiers(?) assignment_expression(?) ']'
{
my $size;
if (@{$item{'assignment_expression(?)'}}) {
$size = join('', @{$item{'assignment_expression(?)'}});
if ($size =~ /^(unsigned|long)*\s*1$/) {
$size = "$size element";
} else {
$size = "$size elements";
}
} else {
$size = 'unspecified length';
}
my $qualifiers = join('', @{$item{'array_qualifiers(?)'}});
if ($qualifiers) {
if($qualifiers =~ s/static//g) {
$qualifiers = join(' ', split(' ', $qualifiers));
if($qualifiers) {
$return = "a $qualifiers array ";
} else {
$return = "an array ";
}
$return .= "with optimization hint to provide access to the first element of $size of";
} else {
$return = "an $qualifiers array of $size of";
}
} else {
$return = "an array of $size of";
}
}
| DAD '[' ']'
| DAD '[' array_qualifiers(?) assignment_expression(?) ']'
| '(' ')'
{ $return = 'function taking unspecified arguments and returning'; }
| '(' parameter_type_list ')'
{ $return = "function taking $item{parameter_type_list} and returning"; }
| DAD '(' ')'
| DAD '(' parameter_type_list ')'
DAD: # macro for direct_abstract_declarator
( '(' abstract_declarator ')' )(s?)
( '[' ']' )(s?)
( '[' assignment_expression ']' )(s?)
( '(' ')' )(s?)
( '(' parameter_type_list ')' )(s?)
identifier:
...!reserved identifier_word
{
if (not grep { $_ eq $item{identifier_word} } @identifiers) {
push @identifiers, $item{identifier_word};
}
$return = $item{identifier_word};
}
pointer:
'*' type_qualifier_list(s) pointer(?)
{
$return = join('', @{$item{'pointer(?)'}}) if @{$item{'pointer(?)'}};
$return .= ' ' . join('', @{$item{'type_qualifier_list(s)'}}) . ' pointer to';
}
| '*' pointer(?)
{
my $pointers = join('', @{$item{'pointer(?)'}});
$return .= "$pointers " if $pointers;
$return .= 'pointer to';
}
type_qualifier_list:
type_qualifier(s)
{ $return = join(' ', @{$item{'type_qualifier(s)'}}); }
function_specifier:
'inline'
| '_Noreturn'
| 'noreturn'
{ $return = '_Noreturn'; }
declaration_specifiers:
comment[context => 'declaration_specifiers'] declaration_specifiers(s)
{ $return = "$item{comment} " . join(' ', @{$item{'declaration_specifiers(s)'}}); }
| type_specifier ...identifier
{ $return = $item{type_specifier}; }
| storage_class_specifier declaration_specifiers(?)
{
my $decl_spec = join(' ', @{$item{'declaration_specifiers(?)'}});
if ($item{storage_class_specifier} =~ m/^with/) {
if ($decl_spec) { $return .= "$decl_spec "; }
$return .= $item{storage_class_specifier};
} else {
$return .= $item{storage_class_specifier};
if ($decl_spec) { $return .= " $decl_spec"; }
}
}
| type_specifier(s) declaration_specifiers(?)
{
my $decl_spec = join(' ', @{$item{'declaration_specifiers(?)'}});
if ($decl_spec =~ s/\s*(with.*)$//) {
push @{$item{'type_specifier(s)'}}, $1;
}
$return .= "$decl_spec " if $decl_spec;
$return .= join(' ', @{$item{'type_specifier(s)'}});
}
| type_qualifier declaration_specifiers(?)
{
my $decl_spec = join(' ',@{$item{'declaration_specifiers(?)'}});
$return = $item{type_qualifier};
$return .= " $decl_spec" if $decl_spec;
}
| function_specifier declaration_specifiers(?)
{
my $decl_spec = join(' ',@{$item{'declaration_specifiers(?)'}});
$return = $item{function_specifier};
$return .= " $decl_spec" if $decl_spec;
}
| alignment_specifier(s) declaration_specifiers(?)
{
my $decl_spec = join(' ',@{$item{'declaration_specifiers(?)'}});
if ($decl_spec) {
$return = "$decl_spec ";
$return .= 'or ' if $decl_spec =~ /with alignment/;
}
$return .= join(' or ', @{$item{'alignment_specifier(s)'}});
$return .= ', whichever is more strict' if $return =~ /or with alignment/;
}
storage_class_specifier:
'auto'
{ $return = "with automatic storage-duration"; }
| 'extern'
{
if ($arg{context} eq 'function definition') {
$return = "with external linkage";
} else {
$return = "with external linkage, possibly defined elsewhere";
}
}
| 'static'
{
if ($arg{context} eq 'function definition') {
$return = "with internal linkage";
} elsif ($arg{context} eq 'function definition statement') {
$return = "with life-time duration";
} else {
$return = "with internal linkage and life-time duration";
}
}
| 'register'
{ $return = "with a suggestion to be as fast as possible"; }
| 'typedef'
{ $return = 'type definition of'; }
type_qualifier:
'const'
| 'volatile'
| 'restrict'
| '_Atomic'
{ $return = 'atomic'; }
atomic_type_specifier:
'_Atomic' '(' type_name ')'
{ $return = "atomic $item{type_name}"; }
type_specifier:
<skip:''> /\s*/
('void'
| 'signed' | 'unsigned'
| 'FILE' | 'fpos_t'
| 'bool' | '_Bool'
| '_Complex' | '_Imaginary'
| 'int_fast8_t' | 'int_fast16_t' | 'int_fast24_t' | 'int_fast32_t' | 'int_fast64_t' | 'int_fast128_t'
| 'uint_fast8_t' | 'uint_fast16_t' | 'uint_fast24_t' | 'uint_fast32_t' | 'uint_fast64_t' | 'uint_fast128_t'
| 'int_least8_t' | 'int_least16_t' | 'int_least24_t' | 'int_least32_t' | 'int_least64_t' | 'int_least128_t'
| 'uint_least8_t' | 'uint_least16_t' | 'uint_least24_t' | 'uint_least32_t' | 'uint_least64_t' | 'uint_least128_t'
| 'int8_t' | 'int16_t' | 'int24_t' | 'int32_t' | 'int64_t' | 'int128_t'
| 'uint8_t' | 'uint16_t' | 'uint24_t' | 'uint32_t' | 'uint64_t' | 'uint128_t'
| 'intmax_t' | 'uintmax_t'
| 'intptr_t' | 'uintptr_t' | 'ptrdiff_t'
| 'sig_atomic_t'
| 'wint_t' | 'wchar_t'
| 'size_t' | 'rsize_t' | 'max_align_t'
| 'mbstate_t' | 'char16_t' | 'char32_t'
| 'fenv_t' | 'fexcept_t'
| 'div_t' | 'ldiv_t' | 'lldiv_t' | 'imaxdiv_t'
| 'cnd_t' | 'thrd_t' | 'tss_t' | 'mtx_t' | 'tss_dtor_t' | 'thrd_start_t' | 'once_flag'
| 'clock_t' | 'time_t'
| <skip:'[\s]*'> struct_or_union_specifier
| <skip:'[\s]*'> enum_specifier
| <skip:'[\s]*'> atomic_type_specifier | typedef_name
| 'double' | 'float' | 'char' | 'short' | 'int' | 'long'
) .../\W/
{ $return = $item[3]; }
typedef_name:
identifier
{
my $answer = 0;
foreach (@typedefs) {
if ($item{identifier} eq $_) {
$answer = 1;
$return = ($item{identifier} =~ m/^`[aeiou]/ ? 'an ' : 'a ') . $item{identifier};
}
}
if (!$answer) { undef $answer; }
$answer;
}
struct_or_union_specifier:
comment(?) struct_or_union identifier(?) '{' struct_declaration_list '}'
{
my $identifier = join('',@{$item{'identifier(?)'}});
$return = join('',@{$item{'comment(?)'}}) . $item{struct_or_union};
if ($identifier) { $return .= " tagged $identifier"; }
my $plural = $item{struct_declaration_list} =~ / and (?!returning)/ ? 's' : '';
$return .= ", with member$plural $item{struct_declaration_list},";
}
| struct_or_union identifier
{
$item{struct_or_union} =~ s/^(an|a)\s+//;
$return = $item{identifier} =~ m/^`[aeiou]/ ? 'an' : 'a';
$return .= " $item{identifier} $item{struct_or_union}";
}
struct_declaration_list:
struct_declaration(s)
{
my $finaldec;
my @declarations = @{$item{'struct_declaration(s)'}};
if ($#declarations > 1) {
$finaldec = pop @declarations;
$return = join(', ', @declarations ) . ' and ' . $finaldec;
} elsif ($#declarations == 1) {
$return = join(' and ', @declarations);
} else {
$return = $declarations[0];
}
}
struct_declaration:
comment(s?) declaration[context => 'struct member'] comment(s?)
{ $return = join('', @{$item[1]}) . $item{declaration} . join('', @{$item[-1]}); }
type_name:
specifier_qualifier_list abstract_declarator(?)
{
my $abstract_declarator = join('',@{$item{'abstract_declarator(?)'}});
$return = "$abstract_declarator " if $abstract_declarator;
$return .= $item{specifier_qualifier_list};
}
specifier_qualifier_list:
type_specifier specifier_qualifier_list(?)
{
$return = $item{type_specifier};
$return .= ' ' . join('', @{$item{'specifier_qualifier_list(?)'}}) if @{$item{'specifier_qualifier_list(?)'}};
}
struct_or_union:
comment(?) ('struct'
{ $return = 'a structure'; }
| 'union'
{ $return = 'an union'; }
) comment(?)
{
shift @item;
foreach (@item) {
if (ref($_)) {
$return .= join('',@{$_});
} else {
$return .= $_;
}
}
}
enum_specifier:
'enum' identifier(?) '{' enumerator_list '}'
{
$return .= 'an enumeration';
if (@{$item{'identifier(?)'}}){
$return .= ' of ' . join('',@{$item{'identifier(?)'}});
}
my @enumerator_list = @{$item{enumerator_list}};
if (@enumerator_list == 1) {
$return .= " comprising $enumerator_list[0]";
} else {
my $last = pop @enumerator_list;
$return .= ' comprising ' . join(', ', @enumerator_list) . " and $last";
}
}
| 'enum' identifier
{ $return = "an enumeration of type $item{identifier}"; }
enumerator_list:
<leftop:enumerator ',' enumerator>
enumerator:
identifier ( '=' constant_expression )(?)
{
$return = $item[1];
if (@{$item[-1]}) {
$return .= ' marking ^L' . join('', @{$item[-1]});
}
}
comment:
comment_c
| comment_cxx
comment_c:
m{/\*[^*]*\*+([^/*][^*]*\*+)*/}s
{
$return = $item[1];
$return =~ s|^/\*+\s*||;
$return =~ s|\s*\*+/$||;
$return =~ s/"/\\"/g;
if ($arg{context} =~ /statement/) {
$return = "\nA comment: \"$return\".\n";
} else {
$return = "(a comment: \"$return\")";
}
}
comment_cxx:
m{//(.*?)\n}
{
$return = $item[1];
$return =~ s|^//\s*||;
$return =~ s/\n*$//;
$return =~ s/"/\\"/g;
$return = "\nA quick comment: \"$return\".\n";
}
constant:
/-?[0-9]*\.[0-9]*[lf]{0,2}/i
{
if ($item[1] =~ s/f$//i) {
$return = "the floating point constant $item[1]";
} elsif ($item[1] =~ s/l$//i) {
$return = "long double $item[1]";
} else {
$return = $item[1];
}
$return .= '0' if $return =~ /\.$/;
}
| /0x[0-9a-f]+[lu]{0,3}/i
{
$return .= 'unsigned ' if $item[1] =~ s/[Uu]//;
$return .= 'long ' while $item[1] =~ s/[Ll]//;
$return = "the $return" . "hexadecimal constant $item[1]";
}
| /0\d+[lu]{0,3}/i
{
$return .= 'unsigned ' if $item[1] =~ s/[Uu]//;
$return .= 'long ' while $item[1] =~ s/[Ll]//;
$return = "the $return" . "octal constant $item[1]";
}
| /-?[0-9]+[lu]{0,3}/i # integer constant
{
$return .= "unsigned " if $item[-1] =~ s/[Uu]//;
$return .= "long " while $item[-1] =~ s/[Ll]//;
$return .= $item[-1];
}
| /[LuU]?(?:\'(?:\\\'|(?!\').)*\')/ # character constant
{
my $constant = $item[1];
my $modifier = "";
$modifier = 'wide character ' if $constant =~ s/^L//;
$modifier = '16-bit character ' if $constant =~ s/^u//;
$modifier = '32-bit character ' if $constant =~ s/^U//;
if ($constant eq q('\n')) {
$return = "a $modifier" . 'newline';
} elsif ($constant eq q('\f')) {
$return = "a $modifier" . 'form-feed character';
} elsif ($constant eq q('\t')) {
$return = "a $modifier" . 'tab';
} elsif ($constant eq q('\v')) {
$return = "a $modifier" . 'vertical tab';
} elsif ($constant eq q('\a')) {
$return = 'an alert character' if not length $modifier;
$return = "a $modifier" . 'alert character' if length $modifier;
} elsif ($constant eq q('\r')) {
$return = "a $modifier" . 'carriage-return';
} elsif ($constant eq q('\b')) {
$return = "a $modifier" . 'backspace character';
} elsif ($constant eq q('\'')) {
$return = "a $modifier" . 'single-quote';
} elsif ($constant eq q(' ')) {
$return = "a $modifier" . 'space';
} else {
$return = $constant if not length $modifier;
$return = "a $modifier$constant" if length $modifier;
}
}
identifier_word:
/[a-z_\$][a-z0-9_]*/i
{ $return = "`$item[-1]`"; }
string:
(/(u8|u|U|L)?(?:\"(?:\\\"|(?!\").)*\")/)(s)
{
my $final_string = "";
foreach my $string (@{$item[-1]}) {
my $modifier = "";
$modifier = 'an UTF-8 string ' if $string =~ s/^u8//;
$modifier = 'a wide character string ' if $string =~ s/^L//;
$modifier = 'a 16-bit character string ' if $string =~ s/^u//;
$modifier = 'a 32-bit character string ' if $string =~ s/^U//;
if (not length $final_string) {
$final_string = $modifier;
$final_string .= '"';
}
$string =~ s/^"//;
$string =~ s/"$//;
$final_string .= $string;
}
$final_string .= '"';
$return = $final_string;
}
reserved:
/(auto|break|case|char|const|continue|default|do|double|else|enum|extern|float|for|goto
|if|inline|int|long|register|restrict|return|short|signed|sizeof|static|struct|switch|typedef
|union|unsigned|void|volatile|while|_Alignas|alignas|_Alignof|alignof|_Atomic|_Bool|_Complex|_Generic
|_Imaginary|_Noreturn|noreturn|_Static_assert|static_assert|_Thread_local|offsetof)\b/x